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Abstract # 
-ROM). 
ver Athena 
ophys. Ress 
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B4. Istanbul 2004 
  
Christensen, P., et al. 2003. Morphology and Composition 
of the Surface of Mars: Mars Odyssey THEMIS Results. 
Science, 300, pp. 2056-2061. 
Dorrer, E., et al., 2004. De- and re-shading of Mars Express 
HRSC image data for homogenization of map relief shading. 
Int. Arch. Photogramm. Remote Sens. (this volume). 
Ebner, H., et al., 2004. Improving the exterior orientation of 
HRSC imagery from Mars-simulations and real data. /nt. 
Arch. Photogramm. Remote Sens. (this volume). 
Elachi, C. 1987, Introduction to the Physics and Techniques 
of Remote Sensing, Wiley, pp. 114-141. 
Eliason, E., 1997. Production of digital image models using 
the ISIS system. Lunar Planet. Sci., XXVIIL pp. 331-332, 
Lunar and Planetary Institute, Houston. 
Gaddis, L.R., et al., 1997. An overview of the Integrated 
Software for Imaging Spectrometers (ISIS). Lunar Planet. 
Sci., XXVIII, pp. 387-388, Lunar and Planetary Institute, 
Houston. 
Gaddis, L.R., et al., 1999. Digital mapping of the Mars 
Pathfinder landing site: Design, acquisition, and derivation 
of a cartographic product for science applications. J. 
Geophys. Res., 104(E4), pp. 8853-8868. 
Hauber, E., et al., 2004. Planning and preliminary mapping 
results of the High Resolution Stereo Camera on the ESA 
Mars Express mission. Int. Arch. Photogramm. Remote Sens. 
(this volume). 
Heipke, C., et al., 2004. Performance of automatic tie point 
extraction using HRSC imagery of the Mars Express 
mission. /nt. Arch. Photogramm. Remote Sens. (this volume). 
Herkenhoff, K.E., et al., 2003. Athena Microscopic Imager 
investigation. J. Geophys. Res., 108(E12), 8065, doi: 
10.1029/2003JE002076. 
Jakosky, B. and Mellon, M. 2001. High-resolution thermal 
inertia mapping of Mars: Sites of exobiological interest. J. 
Geophys. Res., 106(E10), pp. 23887-23908. 
Kieffer, H.H., et al. 1977. Thermal and albedo mapping of 
Mars during the Viking primary mission. J. Geophys. Res, 
82, pp. 4249-4291. 
Kirk, R.L., 1987. Part III. A fast finite-element algorithm for 
two-dimensional photoclinometry. Ph.D. Thesis (unpubl.), 
Caltech, pp. 165-258, 1987. 
Kirk, R.L., E. Howington-Kraus, and M. Rosick, 2000a. 
Recent planetary topographic mapping at the USGS, 
Flagstaff: Moon, Mars, Venus, and beyond. Int. Arch. 
Photogramm. Remote Sens., XXXIII(B4), 476 (CD-ROM), 
Kirk, R.L,, et al., 1999. Digital photogrammetric analysis of 
the IMP camera images: Mapping the Mars Pathfinder 
landing site in three dimensions. J. Geophys. Res., 104(E4), 
pp. 8869-8887. 
Kirk, R.L., et al, 2003a. High resolution toppomapping of 
candidate MER landing sites with Mars Orbiter Camera 
narrow-angle images. J. Geophys. Res., 108(E12), 8088, doi: 
10.1029/2003JE002131. 
Kirk, R.L., J.M. Barrett, and L.A. Soderblom, 2003b. 
Photoclinometry made simple...? ISPRS-ET Working Group 
2" 
5 
IV/9 Workshop "Advances in Planetary Mapping 2003", 
839 
http://astrogeology.usgs.gov/Projects/ISPRS/MEETINGS/ 
Houston2003/abstracts/Kirk isprs mar03.pdf. 
Kirk, R.L., K.T. Thompson, and E.M. Lee, 2001. Photometry 
of the martian atmosphere: An improved practical model for 
cartography and photoclinometry, Lunar Planet. Sci., XXXII, 
Abstract #1874, Lunar and Planetary Institute, Houston (CD- 
ROM). 
Kirk, R.L., K.T. Thompson, T.L. Becker, and EM. Lee, 2000b. 
Photometric modeling for planetary cartography. Lunar 
Planet. Sci., XXXI, Abstract #2025, Lunar and Planetary 
Institute, Houston (CD-ROM). 
Li.. R., K. Di, F. Xu, and J. Wang, 2004. Landing site 
mapping and rover localization for the 2003 Mars 
Exploration Rover Mission: Technology and experimental 
results. Int. Arch. Photogramm. Remote Sens. (this volume). 
Maki, J.N., et al., 2003. Mars Exploration Rover Engineering 
Cameras. "J. Geophys. Res., 108(E12), 8071}, ‘doi: 
10.1029/2003JE002077. 
Malin, M.C., and K.S. Edgett, 2001. Mars Global Surveyor 
Mars Orbiter Camera: Interplanetary cruise through primary 
mission, J. Geophys. Res., 106(E10), pp. 23,429—23,570. 
Mellon, M., et al. 2000. High-Resolution Thermal Inertia 
Mapping from the Mars Global Surveyor Thermal Emission 
Spectrometer. /carus, 148, pp. 437-455. 
Miller, S.B. and A.S. Walker, 1993. Further developments of 
Leica digital photogrammetric systems by  Helava. 
ACSM/ASPRS Annual Convention and Exposition Technical 
Papers, 3, pp. 256-263. 
Miller, S.B. and A.S. Walker, 1995. Die Entwicklung der 
digitalen photogrammetrischen Systeme von Leica und 
Helava. Z. Photogramm. Fernerkundung, 1(95), pp. 4-16. 
Neumann, G.A., D.D. Rowlands, F.G. Lemoine, D.E. Smith, and 
M.T. Zuber, 2001. The crossover analysis of Mars Orbiter 
Laser Altimeter data. J. Geophys. Res., 106(E10) pp. 
23,753-23,768. 
Neukum, G., et al., 2004. The High Resolution Stereo Camera 
(HRSC) experiment on the ESA Mars Express Mission. Inf. 
Arch. Photogramm. Remote Sens. (this volume). 
Oberst, et al., 2004. The photogrammetric performance of 
HRSC in Mars orbit. Int. Arch. Photogramm. Remote Sens. 
(this volume). 
Smith, D.E., et al, 2001. Mars Orbiter Laser Altimeter: 
Experiment summary after the first year of global mapping 
of Mars. J. Geophys. Res., 106(E10), pp. 23,689-23,722. 
Squyres, S.W., and the Athena Science Team, 2004. The 
Athena Mars Rover Science Investigation. /nt. Arch. 
Photogramm. Remote Sens. (this volume). 
Squyres, S.W., et al, 2003. Athena Mars rover science 
investigation. J. Geophys. Res. 108(E12), 8062, doi: 
10.1029/2003JE002121. 
Torson, J. and K. Becker, 1997. ISIS: À software architecture 
for processing planetary images. Lunar Planet. Sci, XXVIII, 
pp. 1443-1444, Lunar and Planetary Institute, Houston. 
Xu, F., 2004. Automation in Mars landing site mapping and 
rover localization. Int. Arch. Photogramm. Remote Sens. (this 
volume).